10 KPIs to Measure the Impact of Intelligent Automation in Manufacturing Industry

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Intelligent automation is transforming the manufacturing industry, optimizing operations, reducing costs, and enabling data-driven decision-making. However, to fully harness the potential of intelligent automation, manufacturers must measure its impact using specific Key Performance Indicators (KPIs). These metrics provide a comprehensive view of performance, help identify areas for improvement and demonstrate the value of automation to stakeholders. Here are ten essential KPIs for evaluating the effectiveness of intelligent automation in manufacturing.

1. Overall Equipment Effectiveness (OEE)

Overall Equipment Effectiveness (OEE) is a core KPI in manufacturing that measures the productivity and efficiency of equipment. By integrating intelligent automation with IoT sensors and AI-driven analytics, manufacturers can track OEE in real-time, obtaining insights into machine performance, availability, and quality.

Intelligent automation reduces downtime, enhances performance by optimizing machine settings, and improves quality by minimizing errors, leading to a higher OEE score. Tracking OEE allows manufacturers to maximize machine utilization, minimize bottlenecks, and maintain consistent production quality.

2. Production Throughput

Production throughput measures the total output of a manufacturing process over a specific period. Intelligent automation can increase throughput by reducing manual interventions, enabling faster decision-making, and optimizing production line efficiency.

Automated systems streamline workflows, enhance production speeds, and enable predictive maintenance to avoid equipment failures that would otherwise disrupt output. Monitoring production throughput helps manufacturers identify potential inefficiencies, gauge automation’s impact on productivity, and adjust processes to meet demand.

3. Cycle Time

Cycle time refers to the total time required to produce a single unit from start to finish. Intelligent automation solutions reduce cycle time by eliminating manual processes, optimizing workflows, and ensuring smooth transitions between production stages.

RPA (Robotic Process Automation) and AI tools minimize delays, enhance machine performance, and reduce the need for manual oversight, thus lowering cycle times. Lower cycle times improve production efficiency, enabling manufacturers to respond quickly to customer demands and increase overall throughput.

4. First Pass Yield (FPY)

First Pass Yield measures the percentage of products that meet quality standards without needing rework. Adopting Intelligent automation services enhances FPY by ensuring consistency, accuracy, and quality control throughout production.

Automated visual inspection systems and AI-based predictive analytics help detect defects early, enabling manufacturers to maintain high-quality standards and reduce rework. High FPY rates indicate a robust, high-quality production process, minimizing waste and reducing production costs associated with rework.

5. Cost per Unit

Cost per unit is a financial KPI that measures the total cost of producing each unit, including materials, labor, and overhead. Intelligent automation solutions significantly reduces production costs by optimizing resource utilization, decreasing material waste, and enhancing labor efficiency.

Automated systems reduce labor requirements for repetitive tasks, streamline material usage, and optimize energy consumption, thus lowering the cost per unit. Reducing the cost per unit enhances profitability, allowing manufacturers to achieve higher margins and remain competitive.

6. Downtime Percentage

Downtime percentage measures the total time that production equipment is unavailable, whether due to maintenance, breakdowns, or setup time. Intelligent automation minimizes downtime by enabling predictive maintenance and quickly identifying root causes of equipment failures.

AI-driven predictive maintenance systems monitor equipment health, identifying potential issues before they lead to breakdowns. RPA also helps reduce setup time by automating machine configurations. Lower downtime percentage increases equipment availability and production efficiency, allowing manufacturers to maximize their output.

7. Defect Rate

The defect rate measures the percentage of units that do not meet quality standards. By adopting Intelligent automation services, we can reduce the defect rate by improving accuracy, consistency, and quality control throughout the production process.

Automated quality control systems can perform real-time inspections and adjust processes to maintain high-quality standards, significantly reducing defect rates. A low defect rate is essential for maintaining customer satisfaction and reducing costs associated with waste, rework, or recalls.

8. Return on Investment (ROI)

Return on Investment (ROI) measures the financial benefits gained from intelligent automation relative to the initial investment. Calculating ROI provides insights into the economic viability of automation projects and helps justify further investments.

By improving efficiency, reducing costs, and increasing output, intelligent automation generates substantial returns, leading to a positive ROI. Measuring ROI allows manufacturers to quantify the value of automation projects and make data-driven decisions regarding future investments.

9. Employee Productivity

Employee productivity measures the efficiency and effectiveness of the workforce, especially as they adapt to roles involving automation oversight. Intelligent automation enables employees to focus on value-added activities rather than repetitive tasks, improving productivity.

RPA and intelligent automation free up workers from routine tasks, allowing them to contribute to more strategic aspects of production, such as process improvement and quality control. High employee productivity indicates that automation has been effectively integrated, allowing the workforce to perform higher-level functions that contribute to overall business growth.

10. Energy Consumption per Unit

Energy consumption per unit measures the amount of energy used to produce a single unit, providing insight into the sustainability of the manufacturing process. Intelligent automation improves energy efficiency by optimizing production schedules, machine performance, and resource usage.

Automated systems can monitor energy consumption, identify inefficiencies, and adjust production settings to minimize energy usage. Predictive maintenance also prevents equipment from operating under suboptimal conditions, reducing unnecessary energy consumption. Reducing energy consumption per unit contributes to sustainability goals, lowers operational costs, and aligns with industry standards for environmental responsibility.

Conclusion

Intelligent automation services provide manufacturers with tools to enhance efficiency, reduce costs, and improve product quality. These KPIs reflect operational performance and highlight opportunities for improvement, enabling manufacturers to unlock new levels of efficiency, profitability, and competitiveness in an evolving industry landscape. As intelligent automation becomes more advanced and widely adopted, regularly tracking these KPIs will be essential for manufacturers looking to stay at the forefront of industry innovation.

Learn more about how we helped the manufacturers save costs and enhance operational efficiency with innovative Intelligent Automation Solutions here.

Author

  • Coforge-Logo

    Cigniti Technologies Limited, a Coforge company, is the world’s leading AI & IP-led Digital Assurance and Digital Engineering services provider. Headquartered in Hyderabad, India, Cigniti’s 4200+ employees help Fortune 500 & Global 2000 enterprises across 25 countries accelerate their digital transformation journey across various stages of digital adoption and help them achieve market leadership by providing transformation services leveraging IP & platform-led innovation with expertise across multiple verticals and domains.
    Learn more about Cigniti at www.cigniti.com and about Coforge at www.coforge.com.

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